Patent Application
20170206488
The present invention relates to a franking and shipping system aimed at small businesses and adapted for weighing letters and occasionally parcels. More specifically it relates to a weighing scale integrated into a franking machine forming part of this system, in order to minimize the footprint and to allow the weighing of large items in a particular mode.
Postage and/or shipping rates depend on various parameters such as service level, delivery address, dimensions and weight. Carriers and Posts have defined rate tables associating the dimensions of parcels with the corresponding tariffs. Therefore it is necessary to measure the dimensions and weight of letters or parcels in order to apply the correct rate.
Several systems exist to acquire the dimensions of letters or parcel. The simplest one consists of a ruler to measure length, width and height. High accuracy is not necessary; typically +/−5 mm is enough. Additionally, many items fall into categories of postal products defined by dimensional ranges (such as letters or large letters) and it is not necessary to measure them. One may also use standard envelopes or package boxes for which a flat rate is applicable. However it is often necessary to weigh the item, either because the category is also defined by a weight range or the rate depends on the weight for certain destinations.
A small business owner will typically send a few letters per day, and from time to time a large letter or parcel. He may be looking for a complete, yet compact, cost effective and user friendly solution. The machine discussed here is specifically aimed at such users.
Franking machines are conventionally connected to weighing scales in order to apply the correct rate automatically. Once a postal product has been chosen, the scale will send the weight of the item and trigger the selection and application of the rate by the machine. The scale can be operated in two modes. In a direct mode, only one item is weighed at a time. In a differential mode, a stack of items is placed on the scale and items are weighed one by one in sequence as they are removed from the top of the stack. The differential mode is notably described in U.S. Pat. No. 5,001,648 and has become an industry standard.
In order to minimize the footprint, the scale is often located on top of the franking machine and in some cases integrated into the housing. An example of such machine of the prior art is the IS-280 sold by Neopost company and illustrated in
Letters to be franked can be placed directly in the throat if no weighing is required (flat rate). Otherwise, a letter is placed first on the scale. The weight is measured and displayed on the screen for verification. The operator can then select to print the corresponding postage on a franking label, or alternatively place the letter into the throat. A sensor (not shown) detects when the label or letter is in a correct position and postage is printed directly thereon.
The franking machine can also be operated in a differential mode, where a stack of items is placed on the scale and items are weighed one by one in sequence as they are removed from the top of the stack. Postage can be printed either on a franking label or directly on the item when placed into the throat and detected by the franking machine.
The range of items that can be weighed on small machines is thus limited. A large or heavy item shall not be placed on the scale at the risk of damaging the machine, or may not sit stably on top. Holding the item while it is on the scale may affect the measurement of its weight. This weight may also exceed the capacity of a small scale designed primarily for letters (typically up to 7 lbs or 3 Kg). Therefore it is necessary to use a larger external scale for the weighing of heavy items exceeding 3 Kg.
U.S. Pat. No. 4,787,046 describes a mailing system, including a postal scale and a postage meter controlled by the postal scale, and having one step metering capabilities. The postage meter comprises a keyboard and a display, and is physically mounted on the postal scale and the weight of the meter forms part of the tare weight of the scale. In one embodiment a letter placed in the meter will automatically be weighed and metered in a single step. In another embodiment the system operates in a second mode wherein items placed on top of the meter are weighed and postage values are computed in accordance with the weight and other postal information entered by an operator. Postal labels for packages, envelopes too thick to be weighed in the meter, or other items may then be printed upon command by the operator.
Although the weighing scale of U.S. Pat. No. 4,787,046 is capable of weighing both the postage meter and large envelopes or small parcel which will not fit into the throat of the meter, it is still limited to the largest items that can sit stably on top without being hold by the operator. Furthermore, the keyboard and display are obscured and can't be used by the operator when a large item is placed on top of the meter.
It is an object of the present invention to solve the issues of the prior art by providing a franking and shipping system adapted for weighing letters and occasionally parcels, and notably a franking machine forming part of this system and having an integrated weighing scale that can be used for weighing all kinds of letters and parcels up to 70 lbs or 30 kg.
It is another object of the invention to provide a compact, cost effective and user friendly machine aimed at small businesses with minimal footprint and adapted for sending a few letters per day, and from time to time a large letter or parcel.
It is another object of the invention to provide a machine operable in various modes, including direct and differential weighing, without obscuring the keyboard and display of the machine.
It is another object of the invention to provide a machine capable of taking into account small weight variations like for instance the consumption of ink used for printing postage.
It is still another object of the invention to provide a franking and shipping system comprising a computer and a printer, further including the franking machine as previously cited.
These objects are achieved by a franking machine having a throat for receiving items to be franked, a platform where an item not fitting into said throat is placed, an weighing scale integrated at the bottom of the franking machine in order to minimise the footprint, at least a control unit for operating the franking machine, separated power supply and data transmission modules, wherein the franking machine and the weighing scale are configured to be operated through the control unit of the franking machine, and the weighing scale is configured to be decoupled from the franking machine to allow the weighing of large items such as parcels.
Like in U.S. Pat. No. 4,787,046, when the franking machine is coupled with the scale, the weight of the franking machine forms part of the tare weight of the scale.
The franking machine is operable in a direct mode where a letter placed in the machine will automatically be weighed and franked in a single step. The franking machine also includes a platform where a letter or small parcel not fitting into the throat of the machine can be placed to be weighed. Franking is delayed until the operator places a franking label into the throat.
The franking machine can also be operated in a differential mode, where a stack of items is placed on its top cover and items are weighed one by one in sequence as they are removed from the top of the stack. Postage can be printed either on a franking label or directly on the item if it is placed into the throat and detected by the franking machine.
The franking machine is operable in another mode, where it can be decoupled from the scale and put aside in order to allow the weighing of a large letter or parcel far exceeding the size of the platform.
Preferably, the franking machine and the weighing scale are configured to be operated independently through control units of both the franking machine and the scale.
Advantageously, centring elements as provided for ensuring the correct positioning of the machine on the weighing scale during weighing operation. Said centring elements consist of a combination of feet of the franking machine and recesses made in a top of the weighing scale or of a skirt partially or completely extending around the weighing scale.
Preferably, the weighing scale includes openings allowing easy lifting and carrying of the franking machine and the weighing scale together.
The franking machine further comprises a locking mechanism allowing easy coupling and decoupling of the franking machine and the weighing scale. And said locking mechanism comprises lateral spring loaded buttons integrated at the bottom of the franking machine and having extensions configured for fitting with slots of the weighing scale.
Advantageously, the control unit is configured for weighing items one by one in sequence as they are removed from a stack of items placed on the platform.
Preferably, the control unit is configured for comparing the weight of an item placed into the throat with the last calculated weight of an item removed from the stack, and for sending a warning on a screen of the franking machine if a noticeable difference is detected.
The zeroing of the scale (acquisition of the tare weight) can be performed on request or at predetermined operation steps of the franking machine, to preclude deviations in weight measurement due for instance to temperature variations, or malfunction of the scale.
The franking machine and the scale form part of a franking and shipping system, which can further include a computer and a printer for conventional purposes, like selection of a carrier, induction of a parcel, accounting for postal charges and printing of shipping labels.
The invention will be described and explained with additional specificity and detail through the use of the accompanying drawings in which:
The correct positioning of the machine on the scale during weighing operation is made by feet 38 located at the bottom of the franking machine 10 which fit into recesses 40 made in the top side of the scale.
It shall be noted that various modes of operation are possible in this configuration. For instance, it is still possible to frank letters without weighing (flat rate). The weighing scale can also be used in differential mode when a stack of large letters needs to be franked.
The operation of the franking machine of the invention is now illustrated with
In this mode, the franking machine compares the measured weight with the last calculated weight and may send a warning (step 680) if a noticeable difference (more than one gram) is detected. Then the machine may wait for a confirmation (step 685) from the operator before printing postage.
Alternatively at step 630, the operator may want to print postage on a franking label instead of the letter. As the weight of a label is small (typically less than five grams), the machine may ignore it, keep displaying the last calculated weight and print postage accordingly. Otherwise the machine may wait for operator's confirmation before printing postage. More particularly, at step 690, the operator places the label into the throat and at step 695 the label is detected and the postage printed.
In this mode, the operator can place the item that has just been weighed into the throat of the franking machine instead of a franking label. The detection of an item into the throat with result in printing the postage corresponding to the last calculated weight and the postal rate selected by the operator. As the franking machine is decoupled from the scale, there is no change in the measured weight, and thus neither recalculation nor comparison.
It shall be noted that only the last weight difference is taken into account for calculating postage. Indeed, the operator may always decide not to frank an item if the weight exceeds a given threshold and/or is not appropriate for the selected postage rate. In this manner, there is also no need to perform a zeroing of the scale (acquisition of the tare weight) after each item.
The zeroing of the scale can however be performed on request from the keyboard, or at predefined operation steps of the franking machine, to preclude deviations in weight measurement due for instance to temperature variations, or malfunction of the scale.
Notably if a stack of letters is left on the scale, there can be an offset of the measured weight after a certain time and the first letter to be removed might not be properly weighed.
Preferably a zeroing will be performed at each power-on of the machine, before any item is placed on the platform or on the scale. Additionally, the operator may request a zeroing from the keyboard if the machine has not been used for several hours.
Normally it is not necessary to take into account the weight of the ink dispensed to print postage because it is very small, typically in the range of nano- or micrograms. Adversely, replacing an empty cartridge by a full one adds several dozens of grams to the weight of the machine and it is recommended to take it into account by zeroing the scale.
A zeroing may also be performed for maintenance purposes after removing the print cartridge. In this case the machine is back to its original (out-of-factory) state and its weight expected to be within a precise range. A potential malfunction of the scale, signalled by a significant deviation of this weight, may thus be detected.
The franking machine of the invention is advantageously incorporated in a franking and shipping system 60 as illustrated in
| Number | Date | Country | Kind |
|---|---|---|---|
| 16305040 | Jan 2016 | EP | regional |
